Physical attacks on silicon are no longer a research curiosity. The tools for voltage, electromagnetic and laser fault injection are an order of magnitude cheaper than five years ago, and open frameworks, hobbyist budgets and YouTube walkthroughs have lowered the barrier significantly. Polymorphic circuits and self-destructive registers exist as defenses, yet most deployed devices still fail to raise an alarm when attacked.

In this insightful discussion, the panel of experts discuss:

• How voltage, electromagnetic and laser fault injection work in practice across hobby, professional and nation-state budget tiers on a real automotive microcontroller;
• How shrinking lithography, chiplet packaging and rising clock frequencies change the practical difficulty of laser fault injection campaigns;
• Why hardware defenses exist but are not shipping in production, and what artificial intelligence-assisted attack automation means for the next generation of hardware security.